A hybrid zone dominated by fertile F1s: maintenance of species barriers in Rhododendron

Isolating barriers between interbreeding sympatric or parapatric interfertile species are maintained by processes that occur within their hybrid zones. Although the effects of intrinsic selection on hybrid fitness are well known, less is understood about extrinsic fitness variation. At Tiryal Dag, n...

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Bibliographic Details
Published in:Molecular ecology 2003-10, Vol.12 (10), p.2719-2729
Main Authors: Milne, R. I., Terzioglu, S., Abbott, R. J.
Format: Article
Language:English
Subjects:
Environment
extrinsic fitness
F1 advantage
Genetics, Population
Geography
hybrid breakdown
hybrid zones
Hybridization, Genetic
Random Amplified Polymorphic DNA Technique
Reproduction - physiology
reproductive isolation
Rhododendron - genetics
Rhododendron - physiology
Seeds - physiology
Selection, Genetic
Turkey
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Summary:Isolating barriers between interbreeding sympatric or parapatric interfertile species are maintained by processes that occur within their hybrid zones. Although the effects of intrinsic selection on hybrid fitness are well known, less is understood about extrinsic fitness variation. At Tiryal Dag, northeast Turkey, Rhododendron×sochadzeae (R. ponticum×caucasicum) forms large populations in which neither segregation nor backcrossing occur, in habitats intermediate between those of its parents. Using single‐copy species‐specific random amplified polymorphic DNA and inter simple sequence repeat markers, it was determined that most or all R.×sochadzeae plants are F1s, and that there are many separate genets present. Hand pollination and germination experiments showed that R.×sochadzeae plants can produce viable seed of F2s or backcrosses in either direction. Furthermore, adult backcrosses have been observed in habitats atypical for R.×sochadzeae. From this, all non‐F1 hybrid derivatives appear to be eliminated in the hybrid zone at Tiryal Dag as a result of postgermination selection. This absence of post‐F1 hybrid derivatives apparently prevents introgression. This type of hybrid population is here termed an F1‐dominated hybrid zone (F1DZ), and also occurs in Encelia. The observed dominance of F1s within a narrow habitat range is best explained by habitat‐mediated superiority of F1s over all other genotype classes. Therefore, habitat‐mediated selection against the second hybrid generation might be preventing interspecific gene flow in R.×sochadzeae. F1DZ formation is postulated to require the formation of F1s in quantity, habitat‐mediated superiority in F1s, and highly specific habitat conditions.
ISSN:0962-1083
1365-294X
DOI:10.1046/j.1365-294X.2003.01942.x